Intel Corporation: The DRAM Decision
Introduction
Introduction Since 1980,Intel had been losing its market
position in dynamic random-access memories (DRAM) as the industry average selling price per chip had declined much more rapidly than the 20-30% / year which was customary.
Introduction The Japanese had taken the lead in unit
sales of the latest generation of DRAMs, the 256 kilobit(256K) version, but Intel was fighting back with next generation .It’s $50 million1 megabit.
Introduction
Still,a debate was growing within the company about whether Intel could continue to compete in the market of DRAMs.
The memory businesses had made Intel,and was still by far the largest market segment in integrated circuits.
Company Background
Company Background
Andy Grove,Bob Noyce and Gordon Moore
1969 Intel introduced first product ,a bipolar static random-access memory (SRAM) with 64-bit.
Company Background
The metal-oxide-semiconductor (MOS) process promised to lead to increased transistor density.
MOS SRAM first commercially available,the 256-bit “1101”.
Development of DRAM
Development of DRAM
The first DRAM in 1970, the 1-kilobit “1103” .
While the SRAM required six MOS transistors per memory cell, the DRAM required only 3 transistors. With fewer elements in each memory cell, the 1103 contained more storage capacity in the same silicon area.
New DRAM Generations
New DRAM Generation
In 1972 DRAM (1103)converted the process from 2-inch to 3-inch.
Competitors entered the market for DRAM and began to erode Intel’s MOS process technology lead.
New DRAM Generation
The first DRAMs were not very user-friendly, and MOSTEK came out with a better product.
DRAM-4K was redesigned to include the internal Multiplexing logic.
New DRAM Generation
DRAM 16K “2116” and “2117” In 1979 Intel introduced 5-volt-single-
power-supply 16K DRAM “2118” ,greatly –simplified the user’s design and production tasks.
Intel’s competitor focus on DRAM 64K.
The Invention of the EPROM
The Invention of the EPROM
The EPROM (electrically programmable read-only memory) was invented by Dov Frohman.
It could be applied to a memory device, designed the first part,and fabricated the first device.
The Invention of the EPROM
Frohman was assigned to help understand a strange phenomenon which was causing reliability problems with the MOS process.
The problem with the
MOS process involved
the silicon gate structure.
The Invention of the EPROM
Frohman saw that the phenomenon could be explained by the existence of an unintentional floating gate within the MOS device.
The Invention of the Microprocessor
The Invention of the Microprocessor
Ted Hoff invented the Microprocessor Intel had been hired by the Japanese firm
Busicom to design and build
a set of chips for a number of
different calculators.
The Invention of the Microprocessor
Hoff was the architect of the chip set which Federico Faggin and a team of designers implemented. The set included four chips:
1.A central processing unit (CPU) called the 4004.
The Invention of the Microprocessor
2.A read-only memory (ROM) with
custom instructions for
calculator operation.
3.A random-access memory (RAM).
4.A shift register for input/output buffering
The Invention of the Microprocessor
Early 1970,Intel signed a $60,000 contract which gave Busicom proprietary rights to design.The CPU chip,4004, was eventually called a Microprocessor.
While Intel produced chips for Busicom which were successfully made into 100,000 calculators.
The Invention of the Microprocessor
4004 – The 4004 was introduced in 1971.
It contained 2,300 MOS transistors
and could execute 60,000
instructions per second.
The Invention of the Microprocessor
8008- Intel developed 8-bit microprocessor which was introduced in 1972.
It was too slow and required 20 support chips for operation.
The Invention of the Microprocessor
8080- Intel had created an NMOS process.it could execute 290,000 instructions per second,in addition, the 8080 required only six support chips for operation.
Intel was one year ahead of Motorola’s
introduction or the 6800 and
eventually took nearly the entire
8-bit market.
The Invention of the Microprocessor
Intel’s 16-bit ,the 8086, again was first to market by about one year when it was introduced in 1978.
Motorola introduced its own 16-bit ,
the 68000,and appeared
to be gaining momentum
in the field.
The Invention of the Microprocessor
Intel created a task force to attack the
68000.The project was called operation
CRUSH. The CRUSH campaign emphasized Intel
the most notable win was IBM’s decision
to use the 8088 in their first PC.
The Invention of the Microprocessor
The 80186 and 80286 were designed
to increased integration, internal
memory management ,and advanced
software protection capability. Motorola- project CHECKMATE paralleled
the earlier project CHUSH in concept.
Synergies Between EPROMs and Microprocessor
Synergies Between EPROMs and Microprocessor
EPROM better than ROM
- develop and revise program.
- could not effort the expense of a custom
ROM could substitute off-the-shelf EPROMS.
Synergies Between EPROMs and Microprocessor
Intel had a competitive advantage in the EPROM
- EPROM’s Intel had floating gate process. - Packaging, testing and reliability engineering.
Synergies Between EPROMs and Microprocessor
In1977 Intel introduced the 16K EPROM,2716, which was compatible
with any microprocessor system. In 1981 the EPROM market was
challenged by several competitor.
Synergies Between EPROMs and Microprocessor
Intel 64K EPROM “ 2764” met
very aggressive yield goals
and was again leading the
world in EPROM.
Technology Development
Technology Development
3 groups of Intel Technology Development
- DRAM
- EPROM
- Logic/SRAM
Technology Development Groups
DRAM EPROM and EEPROM
Logic/SRAM
Location Aloha, Oregon Santa Clara, California
Livermore, California
Focus Linewidth reduction Process Step Ex.increased polysilicon process for floating gate
Process critical to logic devices
Technology Development
The memory technology development group represented Intel’s best corporate resource for process development.
There is more of a connection between the designer and the process engineer.
Intel Product Line and Situation in Late 1984
Intel Product Line and Situation in Late 1984
By the end of 1984, logic product were the dominant source of Intel’s revenue.
The 80186 and 80286 were tremendously successful.
IBM PC purchased microprocessors either from Intel .
Intel Product Line and Situation in Late 1984
The only serious 16-bit architectural
competitor was Motorola.
Intel had developed a microcontroller
which integrated logic and memory to
provide one-chip computer which
were used to control everything
from house fans to complex satellites.
Intel Product Line and Situation in Late 1984
Late 1985 was the successor to the 80268, the 32-bit 80386 microprocessor.
Motorola had developed a strong 32-bit product, the 68020,and was
already in the marketplace
winning designs.
Intel Product Line and Situation in Late 1984
The 80386 was scheduled to be one of the
first product made with the new
complementary MOS (CMOS) process.
Intel Product Line and Situation in Late 1984
In 1984, the Livermore group was developing two distinct processes for SRAM and microprocessor.
The high-volume SRAM segment demanded a new four-transistor cell design and process. By contrast, the high-speed SRAM and the new 80386 microprocessor both demand six-transistor CMOS design.
Intel Product Line and Situation in Late 1984
The high-volume SRAM process required a complex polysilicon resistor technology.
Eventually,they decided to drop the polysilicon resistor process and go with six-transitor (focus on 386).
Intel Product Line and Situation in Late 1984
Development the 386 with a double
metalization process while as the same
time to reducing line widths to 1.5µm
(from 2µm) and implementing the CMOS process.
Intel Product Line and Situation in Late 1984
Market and technology development which may have contributed to the loss of a competitive SRAM product.
- SRAM received less attention for high-quality designer.
- They had a strong position in high-speed SRAM but they give it up without really making a conscious decision.
Intel Product Line and Situation in Late 1984
The end of 1984 represented the same
30% of revenue that MSO had represented
in 1973. While a great deal of system business
comprised development products aimed at
microprocessor and microcontroller users.
Manufacturing and Process Fungibility
Manufacturing and Process Fungibility
Intel took great pain to standartlize each facility as it expanded its manufacturing base
Each Intel chip would
“look and taste” the same
no matter which facility produced it
Manufacturing and Process Fungibility
As larger-diameter silicon wafers became available,Intel developed a process on one line and then transferred the technology to its other facility.
By 1984,Intel had seven fab in the united States.Due to more stringent manufacturing standard, the cost of a fab area had risen dramatically since the 1970s.
Manufacturing and Process Fungibility
Around the time they were deciding to put up a fab in Israel or Japan
- Israel had tremendous government subsidies and good labor market.
- Japan have a tapped the expertise
of Japanese DRAM technology
development,silicon maker and
the infrastructure support.
Manufacturing and Process Fungibility
There are three main process areas : fabrication,assembly and test.
Fabrication is usually the bottleneck in times of tight capacity. – the good one was allocation.
The finance group thought of DRAM as a “low ROI,high beta” product line.
Environmental Forces
Environmental Forces- Competitors -
1.U.S. full line digital design and supply houses
- Motorola: produced DRAM,
microcontroller and microprocessor
- National Semiconductor
- Texas Instrument : microprocessor
Environmental Forces- Competitors -
2. AMD
3. Japan- Hitachi, Fujitsu, NEC, Toshiba
- DRAM SRAM and EPROM. Served second source to U.S. microprocessor microcontroller suppliers
DRAM Situation in 1984Loss of Leadership Position
DRAM Situation in 1984Loss of Leadership Position
By the end of 1984,Intel had lost significant market share in DRAM.The first real difficulties had come with the 64K generation.
Ron Whittier said that 64K version,
the memory cell size was reduced,
but the actual die size still had to be increased significantly.
DRAM Situation in 1984Loss of Leadership Position
The DRAM group calculated that the
required die size would be too big.The 64K
DRAM would be too slow to be acceptable,
In order to boost yield,the group decided to
build in redundancy at the chip level.
DRAM Situation in 1984Loss of Leadership Position
Redundancy – Intel added an extra column of memory elements so that in the event of a process-induced defect,the auxiliary column could be activated.There was a physical switch, or “fuse” built into each column which could be address by the tester machinery.
DRAM Situation in 1984Loss of Leadership Position
TI ,engineers had concluded redundancy would not be economical and
had deferred the discussion
until the next generation.
Attempts to Regain Leadership Position
Attempts to Regain Leadership Position
NMOS to CMOS
- CMOS circuit was more complex
- used in laptop Intel produced CMOS 64K and 256K
DRAM in a niche strategy.
Attempts to Regain Leadership Position
In1983
Demand was in an upswing,and Intel seemed to have a techonology strategy which could lead to dominance in the 1-meg DRAM.
Attempts to Regain Leadership Position
In 1984
CMOS DRAM price at about one and a half to two times the prevailing NMOS price.
Niche strategy : differentiate the product from other offering, and sell it on features.
Attempts to Regain Leadership Position
The price of NMOS DRAMs fell by 40% from
May to August 1984. By late 1984 Intel was down to less than 4%
of the 256K market and had lost its position
entirely in 64K DRAMs.
Attempts to Regain Leadership Position
In the future The 1-meg DRAM will be a technically
outstanding product, at least one and a half
to two years ahead any competition. A technology transfer deal should with
a Korean chip manufacturer. New competitor
Option for DRAM
Option for DRAM
1. drop it all together. 2. stay on the business as a niche
player. 3. license the technology to another
company 4. invest in DRAM capability at the 1-
meg level and commit to a low-margin business.
Option for DRAM
We have been trying to find a clever way
to stay in this business without betting
everything we have, but maybe there
is none.